CN211282753U - Pallet circulation system for bricklaying splitting production line - Google Patents

Abstract

The utility model relates to a pallet circulation system for a brick-laying splitting production line, which separates a pallet and bricks at the front end of the brick-laying splitting production line and conveys the pallet to the rear end of the brick-laying splitting production line for use, and comprises a brick plate conveying belt, a brick-laying feeding belt, a pallet recovery belt, a rotary pallet bin, a pallet sending belt, a brick-laying sending belt and a finished product output belt, wherein the output end of the brick-laying feeding belt is connected with the front end of the brick-laying splitting production line, the input end of the brick-laying sending belt is connected with the rear end of the brick-laying splitting production line, the brick-laying feeding belt is a roller conveyor comprising a plurality of rollers, the pallet recovery belt is a chain conveyor comprising two coiling chains embedded between adjacent rollers, the lower end of one side of the pallet recovery belt close to the brick-laying feeding belt is provided with a pallet jacking piece, the relative height of the coiling chains and the rollers is adjusted under the action of the pallet jacking piece, the production efficiency is high.

Description

Pallet circulation system for bricklaying splitting production line

Technical Field

The utility model relates to a production facility technical field of laying bricks especially relates to a pallet circulation system for laying bricks splitting production line.

Background

The cleavage brickwork is a novel composite wall material integrating a wall structure and decoration, and belongs to decorative concrete brickwork. The splitting brick laying is that two bricks are combined into a large brick, molded, maintained and subjected to certain strength, and then split into two parts at a specified section by a splitting machine.

During the maintenance, the brick is generally placed on the pallet, need separate pallet and brick at brick splitting production line front end during the splitting, and the pallet need be adorned again to the brick of laying after the splitting, and present pallet needs manual work to shift to splitting production line rear end again, and present pallet is the manual collection stack, consuming time and power, and production efficiency is low.

SUMMERY OF THE UTILITY MODEL

For overcoming the technical defect that prior art exists, the utility model provides a pallet circulation system for laying bricks splitting production line, degree of automation is high, and production efficiency is high.

The utility model discloses a technical solution be: a pallet circulation system for a brick laying and splitting production line is used for separating a pallet and bricks at the front end of the brick laying and splitting production line and conveying the pallet to the rear end of the brick laying and splitting production line for use, and comprises a brick plate conveying belt, a brick feeding belt, a pallet recovery belt, a rotary pallet bin, a pallet sending belt, a brick sending-out belt and a finished product output belt, wherein the output end of the brick plate conveying belt is connected with the input end of the brick feeding belt, the input end of the brick feeding belt is connected with the input end of the pallet recovery belt, the output end of the pallet recovery belt is connected with the output end of the rotary pallet bin, the output end of the rotary pallet bin is connected with the input end of the pallet sending-out belt, the output end of the brick feeding belt is connected with the output end of the brick sending-out belt, the output end of the brick feeding belt is a brick sending inlet and is used for connecting with the front end of the brick laying and splitting, the input end of the bricklaying delivery belt is a bricklaying delivery outlet and is used for connecting the rear end of a bricklaying splitting production line; the area is sent into to the brick and the area is sent out to take and is the cylinder conveyer including a plurality of cylinders to the brick, the pallet is retrieved and is taken and the pallet is sent out to take and is chain conveyor, chain conveyor includes two receipts dish chains between the adjacent cylinder of embedding respectively, the pallet is retrieved and is taken and send into to take one side lower extreme and pallet to send out to take one side lower extreme near the brick to be equipped with pallet jacking piece respectively, the relative height of adjustment and cylinder of receipts dish chain under pallet jacking piece effect is taken.

As a further improvement, the rotating pallet bin comprises a pallet bin body, a fixed support, a rotating power mechanism, a pallet slow-falling device, a pallet conveying device in the bin and a synchronous lifting assembly, the pallet slow-falling device and the pallet conveying device in the bin are both installed on the pallet bin body, the rotating power mechanism is installed on the fixed support and the output end of the rotating power mechanism is connected with the pallet bin body, the pallet slow-falling device is located in the pallet conveying device in the bin and the pallet slow-falling device moves along the vertical direction, the pallet slow-falling device has two states of lifting and falling, when the pallet slow-falling device is in the lifting state, the top end is highly higher than the pallet conveying device in the bin and when the pallet conveying device is in the falling state, the synchronous lifting assembly is installed on the pallet bin body and is located above the pallet conveying device in the bin.

As a further improvement of the utility model, the synchronous lifting assembly includes that the symmetry is installed at two claw subassemblies that lift of the storehouse body both sides of the pallet and is installed the synchronizer that lifts between two claw subassemblies that lift, each the claw subassembly that lifts all includes lifts power piece, lifts the axle and a set of parallel articulates the hook on the storehouse body of the pallet, hook one end is established ties through the axle that lifts, lift power piece output and articulate the axle that lifts and the other end articulates on the storehouse body of the pallet, it installs between the axle that lifts of both sides and makes the hook synchronization action of storehouse both sides of the pallet to lift synchronizer.

As a further improvement, lift synchronizer and include that synchronous installation roof beam, symmetry install a set of synchronous link assembly on the synchronous installation roof beam, the synchronous installation roof beam is installed on the pallet storehouse body, synchronous link assembly is including lifting synchronous gear, first connecting rod and second connecting rod, it installs on the synchronous installation roof beam to lift synchronous gear, first connecting rod one end is adorned admittedly on lifting synchronous gear and the articulated second connecting rod one end of the other end, the articulated axle that lifts of the second connecting rod other end, two lift synchronous gear intermeshing.

As a further improvement, the pallet cabin body includes a plurality of storehouse body stands, a plurality of roots slowly falls the installation roof beam, respectively slowly fall installation roof beam horizontal installation between two adjacent storehouse body stands, the pallet slowly falls the device and installs on slowly falling the installation roof beam.

As the utility model discloses a further improvement, the pallet slowly falls the device and includes that a plurality of pallets slowly fall hydro-cylinder, a plurality of pallets slowly fall direction subassembly and pallet and slowly fall the layer board, each pallet slowly falls hydro-cylinder body and slowly falls the equal plummet of direction subassembly with each pallet and adorns on slowly falling the installation roof beam admittedly, each pallet slowly falls hydro-cylinder output and slowly falls direction subassembly expansion end with each pallet and all adorns pallet and slowly falls the layer board.

As the utility model discloses a further improvement, the pallet slowly falls guide assembly and includes that the pallet slowly falls guide pin bushing and pallet and slowly falls the guide pillar, the pallet slowly falls the guide pin bushing and adorns admittedly on slowly falling the installation roof beam, the pallet slowly falls guide pillar one end and adorns admittedly on the pallet slowly falls the layer board and the pallet slowly falls the guide pin bushing and slides from top to bottom along the pallet slowly falls the guide pin bushing.

The utility model has the advantages that:

1: the pallet circulation system has a brick plate feeding port and a finished product output port, the brick is fed into and is taken the output to connect the cleaving production line front end of building the brick, the brick is sent out and is taken the input to connect the cleaving production line rear end of building the brick, manual handling has been avoided, the high-efficient transfer of pallet cleaving production line front end to the cleaving production line rear end of building the brick has been realized, the degree of automation of splitting the brick has been improved greatly, production efficiency has been improved.

2: the pallet recovery belt and the pallet sending-out belt are both chain conveyors, each chain conveyor respectively comprises two pallet jacking pieces which are embedded into a pallet recovery chain between adjacent rollers and are respectively arranged at the lower end of one side of the pallet recovery belt close to the brick feeding belt and the lower end of one side of the pallet sending-out belt close to the brick sending-out belt, the pallet jacking pieces are respectively arranged on the pallet chains under the action of the pallet jacking pieces to adjust the relative heights of the pallet chains and the rollers, when a brick stack is transferred from the brick conveying belt to the brick feeding belt and the pallet is sent out from the pallet sending-out belt to the brick sending-out belt, the pallet jacking pieces retract, the pallet chains fall below the rollers, the bricks and the pallet can be freely conveyed along the brick feeding belt, and the pallet can be freely conveyed along the brick sending-out belt to the brick sending-; the pallet jacking piece is extended, the coiling chain is lifted onto the roller, so that the transportation of the pallet from the brick conveying belt to the brickwork feeding belt or the transportation of the pallet from the brickwork feeding belt to the brickwork feeding belt along the pallet is completed, the pallet jacking piece realizes the switching of different conveying routes when the pallet is in a bearing brickwork state and when the pallet is in no load, and the production efficiency is greatly improved.

Drawings

Fig. 1 is a schematic view of the installation position of the present invention.

Fig. 2 is a schematic diagram of a pallet circulation system.

Fig. 3 is an enlarged schematic view of C in fig. 2.

Fig. 4 is a schematic view of a rotary pallet magazine structure.

FIG. 5 is a schematic diagram of a synchronous lift assembly.

Fig. 6 is a schematic structural view of a pallet slow-descending device.

Description of reference numerals: 1. a pallet circulation system; 11. a brick plate feeding port; 12. a finished product output port; 13. a brick plate conveyor belt; 14. laying bricks and feeding the bricks into a belt; 141. a drum; 142. a bricklaying inlet; 15. pallet recycling tape; 151. a coiling chain; 152. a pallet jack; 16. rotating the pallet bin; 161. a pallet cabin body; 1611. slowly descending the mounting beam; 1612. a bin body upright post; 162. fixing a bracket; 163. a rotary power mechanism; 164. a pallet slow-lowering device; 1641. a pallet slow-lowering oil cylinder; 1642. a pallet slow-descending guide assembly; 16421. a pallet slow-descending guide sleeve; 16422. a pallet slow descending guide post; 1643. a pallet slow-lowering supporting plate; 165. a pallet conveyor in the warehouse; 166. a synchronous lifting assembly; 1661. a lifting pawl assembly; 16611. lifting the power part; 16612. a lifting shaft; 16613. a hook claw; 1662. a lifting synchronizer; 16621. synchronously mounting the beams; 16622. a synchronizing linkage assembly; 166221, lifting a synchronous gear; 166222, a first link; 166223, a second link; 17. a pallet take-off; 18. laying bricks and delivering the belt; 181. a bricklaying delivery port; 19. a finished product output belt; 2. a first brick hanging device; 3. a pre-bricklaying conveying system; 4. a brick laying and splitting machine; 5. a back brick conveying system; 7. and a second brick hanging device.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1 to 6, the present embodiment provides a pallet circulation system for a brick laying and splitting production line, where the brick laying and splitting production line includes a first brick hanging device 2, a previous brick conveying system 3, a brick laying and splitting machine 4, a next brick conveying system 5, and a second brick hanging device 7, which are connected in sequence; the pallet circulation system 1 comprises a brick plate conveying belt 13, a brick feeding belt 14, a pallet recovery belt 15, a rotary pallet bin 16, a pallet sending belt 17, a brick sending belt 18 and a finished product output belt 19, the brick feeding belt 14 input end is connected with the pallet recovery belt 15 input end, the pallet recovery belt 15 output end is connected with the rotary pallet bin 16 input end, the rotary pallet bin 16 output end is connected with the pallet sending belt 17 input end, the pallet sending belt 17 output end is connected with the brick sending belt 18 output end, and the finished product output belt 19 input end is connected with the brick sending belt 18 output end.

In this embodiment, the input end of the brick conveying belt 13 is a brick feeding inlet 11, the output end of the brick conveying belt 13 is connected with the input end of the brick feeding belt 14, the output end of the brick feeding belt 14 is a brick feeding inlet 142 and is connected with the input end of the front brick conveying system 3 through the first brick hanging device 2, the output end of the finished product output belt 19 is a finished product output port 12, the output end of the brick feeding belt 18 is connected with the input end of the finished product output belt 19, the input end of the brick feeding belt 18 is a brick feeding outlet 181 and is connected with the output end of the rear brick conveying system 5 through the second brick hanging device 7, the first brick hanging device 2 and the second brick hanging device 7 are both traveling vehicles with special fixtures for hoisting, thereby avoiding manual transportation, the brick laying splitter 4 is installed between the front brick conveying system 3 and the rear brick conveying system 5 and the brick laying splitter 4 has a brick splitting work position, thereby realizing smooth transportation of bricks from the brick feeding inlet 11 to the brick splitter 4 to the finished product output port 12, greatly improves the automation degree of brick splitting and improves the production efficiency. The first and second brick hanging devices 2, 7 can each be of conventional construction and will not be described in detail.

In this embodiment, the brick feeding belt 14 is a roller conveyor including a plurality of rollers 141, the pallet recovery belt 15 is a chain conveyor capable of rotating forward and backward, the chain conveyor includes two pallet recovery chains 151 embedded between adjacent rollers 141, the pallet recovery belt 15 is provided with a pallet jacking 152 at the lower end of one side close to the brick feeding belt 14, the pallet jacking 152 adjusts the relative height of the pallet recovery chains 151 and the rollers 141 under the action of the pallet jacking 152, when a brick stack is transferred from the brick plate conveyor belt 13 to the brick feeding belt 14, the pallet jacking 152 retracts, the pallet recovery chains 151 fall below the rollers 141, and the bricks and the pallet can be freely conveyed along the brick feeding belt 14; the pallet jack 152 is extended and the take-up chain 151 is raised above the rollers 141 to complete the transfer of the pallet from the brick conveyor belt 13 to the brick feed belt 14. similarly, the pallet feed-out belt 17 is constructed the same as the pallet recovery belt 15 and the output end of the pallet feed-out belt 17 is connected to the brick feed-out belt 18, and the pallet feed-out belt 17 can be run in reverse and forward.

In the present embodiment, the rotary pallet magazine 16 includes a pallet magazine body 161, a fixed bracket 162, a rotary power mechanism 163, a pallet slow-lowering device 164, an in-magazine pallet conveying device 165, and a synchronous lifting assembly 166.

Wherein: the rotating power mechanism 163 is installed on the fixed support 162, and the output end of the rotating power mechanism is connected with the pallet cabin body 161, so as to rotate the pallet cabin body 161, and a forklift can conveniently fork a pallet into the pallet cabin body 161 from any direction.

A synchronized lifting assembly 166 is mounted on the pallet cartridge body 161 above the in-bin pallet conveyors 165, the synchronized lifting assembly 166 including two lifting claw assemblies 1661 symmetrically mounted on both sides of the pallet cartridge body 161 and a lifting synchronizer 1662 mounted between the two lifting claw assemblies 1661. Each lifting claw assembly 1661 comprises a lifting power piece 16611, a lifting shaft 16612 and a group of claws 16613 hinged on the pallet cabin body 161 in parallel, one end of each claw 16613 is connected in series through the lifting shaft 16612, the output end of the lifting power piece 16611 is hinged with the lifting shaft 16612, the other end is hinged on the pallet cabin body 161, the lifting power piece 16611 drives the lifting shaft 16612 to move, the lifting shaft 16612 connects two claws 16613 in series and drives the claws 16613 to rotate around the pallet cabin body 161, so that the two claws 16613 move synchronously; the lifting synchronization device 1662 comprises a synchronization mounting beam 16621, a set of synchronization link assemblies 16622 symmetrically mounted on the synchronization mounting beam 16621, the synchronization mounting beam 16621 is mounted on the pallet bin body 161, the synchronization link assemblies 16622 comprise a lifting synchronization gear 166221, a first link 166222 and a second link 166223, the lifting synchronization gear 166221 is mounted on the synchronization mounting beam 16621, one end of the first link 166222 is fixedly mounted on the lifting synchronization gear 166221, the other end is hinged with one end of the second link 166223, the other end of the second link 166223 is hinged with the lifting shaft 16612, the two lifting synchronization gears 166221 are engaged with each other, so that when the lifting power members 16611 on both sides are actuated, because the two lifting synchronizing gears 166221 are engaged, the first connecting rods 166222 on two sides act synchronously, thereby moving the two side second links 166223 in the same posture, so that the two lifting shafts 16612 are synchronously moved, and the hooks 16613 on the two sides of the rotary pallet magazine 16 are synchronously rotated.

In this embodiment, the pallet cabin 161 includes several cabin columns 1612 and several slow-descending mounting beams 1611, each slow-descending mounting beam 1611 is horizontally mounted between two adjacent cabin columns 1612, and the pallet slow-descending device 164 is mounted on the slow-descending mounting beam 1611. The pallet slow-falling device 164 and the warehouse pallet conveying device 165 are both installed on a pallet cabin body 161, the pallet slow-falling device 164 comprises a plurality of pallet slow-falling oil cylinders 1641, a plurality of pallet slow-falling guide assemblies 1642 and pallet slow-falling supporting plates 1643, the cylinder body of each pallet slow-falling oil cylinder 1641 and each pallet slow-falling guide assembly 1642 are fixedly arranged on a slow-falling installation beam 1611 in a plumb mode, and the pallet slow-falling supporting plates 1643 are fixedly arranged at the output ends of each pallet slow-falling oil cylinder 1641 and the movable ends of each pallet slow-falling guide assembly 1642. The pallet slow-lowering guide assembly 1642 comprises a pallet slow-lowering guide sleeve 16421 and a pallet slow-lowering guide post 16422, the pallet slow-lowering guide sleeve 16421 is fixedly arranged on the slow-lowering mounting beam 1611, one end of the pallet slow-lowering guide post 16422 is fixedly arranged on the pallet slow-lowering supporting plate 1643, the pallet slow-lowering guide post 16422 slides up and down along the pallet slow-lowering guide sleeve 16421, the pallet slow-lowering device 164 is located in the warehouse pallet conveying device 165, the pallet slow-lowering device 164 has two states of lifting and lowering, and the top end of the pallet slow-lowering device 164 is higher than the warehouse pallet conveying device 165 in the lifting state and lower than the warehouse pallet conveying device 165 in the lowering state.

The working process of the rotary pallet bin 16 of the present embodiment is as follows: when the pallet is conveyed to the pallet discharging belt 17 by the pallet recycling belt 15, the pallet slow-lowering cylinder 1641 acts to lift the pallet in the pallet cabin 161 upwards, then the lifting power piece 16611 acts to drive the hook 16613 to fork the whole stack of pallets, then the pallet slow-lowering cylinder 1641 acts reversely to leave a space for the supply pallet to enter, after the pallet passes through the rear pallet slow-lowering cylinder 1641, the lifting power piece 16611 acts reversely to place the pallet on the pallet slow-lowering pallet 1643.

When the pallet magazine 161 outputs pallets to the pallet discharging belt 17, the lifting power part 16611 lifts the pallets on the pallet magazine 161 upward, and it should be noted that when the pallet slow-lowering cylinder 1641 is in the lower limit position, the lifting power part 16611 can only lift the second pallet from bottom to top, so that when the lifting power part 16611 completes lifting, only one pallet remains on the pallet conveyor 165 in the magazine, and the pallet is conveyed to the pallet discharging belt 17 by the pallet conveyor 165 in the magazine; before the pallets in the pallet cabin 161 are exhausted, the rotating power mechanism 163 acts to rotate the pallet cabin 161, so that the forklift can conveniently fork the pallets into the pallet cabin 161 from any direction.

When the pallet storage bin 161 stores the pallets from the pallet recovery belt 15, the pallet slow-lowering cylinder 1641 acts to lift the pallets in the pallet storage bin 161 upwards, and the lifting power piece 16611 acts to clamp the pallets, and it should be noted that when the pallet slow-lowering cylinder 1641 is at the upper limit position, the lifting power piece 16611 can lift the first pallet from bottom to top, so that when the pallet slow-lowering cylinder 1641 descends, a space capable of containing one pallet is left on the pallet conveyor 165 in the bin, and the pallet recovery belt 15 feeds the pallets into the space, thereby completing the storage; before the pallets in the pallet magazine 161 are full, the rotating power mechanism 163 operates to rotate the pallet magazine 161, so that the forklift can fork the pallets out of the pallet magazine 161 from any direction.

Having shown and described the fundamental principles and the principal features of the invention and its advantages, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (7)

1. A pallet circulation system for bricklaying splitting production line separates pallet and bricklaying at bricklaying splitting production line front end to carry the pallet to bricklaying splitting production line rear end and use its characterized in that: the device comprises a brick plate conveying belt, a brick feeding belt, a pallet recovery belt, a rotary pallet bin, a pallet feeding belt, a brick feeding belt and a finished product output belt, wherein the output end of the brick plate conveying belt is connected with the input end of the brick feeding belt, the input end of the brick feeding belt is connected with the input end of the pallet recovery belt, the output end of the pallet recovery belt is connected with the output end of the rotary pallet bin, the output end of the rotary pallet bin is connected with the input end of the pallet feeding belt, the output end of the brick feeding belt is connected with the input end of the finished product output belt, the input end of the finished product output belt is connected with the output end of the brick feeding belt, the output end of the brick feeding belt is a brick feeding inlet and is used for connecting with the front end of a brick splitting production line, and the input end of the brick feeding belt is a brick; the area is sent into to the brick and the area is sent out to take and is the cylinder conveyer including a plurality of cylinders to the brick, the pallet is retrieved and is taken and the pallet is sent out to take and is chain conveyor, chain conveyor includes two receipts dish chains between the adjacent cylinder of embedding respectively, the pallet is retrieved and is taken and send into to take one side lower extreme and pallet to send out to take one side lower extreme near the brick to be equipped with pallet jacking piece respectively, the relative height of adjustment and cylinder of receipts dish chain under pallet jacking piece effect is taken.

2. The pallet flow system for a brick laying splitting line according to claim 1, wherein: rotatory pallet storehouse includes the pallet storehouse body, fixed bolster, rotary power mechanism, pallet slowly falls device, storehouse in pallet conveyor and the assembly that lifts in step, pallet slowly falls device and storehouse in pallet conveyor and all installs on the pallet storehouse body, rotary power mechanism installs on the fixed bolster and the output connects the pallet storehouse body, the pallet slowly falls the device and moves along vertical direction in being located storehouse pallet conveyor, the pallet slowly falls the device and has two states of lifting and descending, the top height is higher than storehouse in pallet conveyor when the pallet slowly falls the device and is less than storehouse in pallet conveyor when being in the down state, the assembly that lifts in step is installed on the pallet storehouse body and is located storehouse in pallet conveyor top.

3. The pallet circulation system for a brick laying splitting line according to claim 2, wherein: the synchronous lifting assembly comprises two lifting claw components symmetrically arranged on two sides of a pallet cabin body and lifting synchronizing devices arranged between the two lifting claw components, each lifting claw component comprises a lifting power piece, a lifting shaft and a group of claws parallelly hinged on the pallet cabin body, one end of each claw is connected in series through the lifting shaft, the output end of the lifting power piece is hinged to the lifting shaft, the other end of each claw is hinged on the pallet cabin body, and the lifting synchronizing devices are arranged between the lifting shafts on two sides to enable the claws on two sides of the pallet cabin to act synchronously.

4. The pallet flow system for a brick laying splitting line according to claim 3, wherein: the lifting synchronizer comprises a synchronous mounting beam and a group of synchronous connecting rod assemblies symmetrically mounted on the synchronous mounting beam, the synchronous mounting beam is mounted on a pallet cabin body, each synchronous connecting rod assembly comprises a lifting synchronous gear, a first connecting rod and a second connecting rod, the lifting synchronous gears are mounted on the synchronous mounting beam, one end of each first connecting rod is fixedly mounted on the lifting synchronous gears, the other end of each first connecting rod is hinged to one end of the corresponding second connecting rod, the other end of each second connecting rod is hinged to a lifting shaft, and the lifting synchronous gears are meshed with each other.

5. The pallet circulation system for a brick laying splitting line according to claim 2, wherein: the pallet cabin body comprises a plurality of cabin body stand columns and a plurality of slow-falling mounting beams, each slow-falling mounting beam is horizontally mounted between two adjacent cabin body stand columns, and the pallet slow-falling device is mounted on the slow-falling mounting beams.

6. The pallet flow system for a brick laying splitting line according to claim 5, wherein: the pallet slowly-descending device comprises a plurality of pallet slowly-descending oil cylinders, a plurality of pallet slowly-descending guide assemblies and pallet slowly-descending supporting plates, wherein cylinder bodies of the pallet slowly-descending oil cylinders and the pallet slowly-descending guide assemblies are fixedly arranged on the slowly-descending mounting beam in a plumb mode, and the pallet slowly-descending supporting plates are fixedly arranged at output ends of the pallet slowly-descending oil cylinders and movable ends of the pallet slowly-descending guide assemblies.

7. The pallet flow system for a brick laying splitting line according to claim 6, wherein: the pallet slowly-descending guide assembly comprises a pallet slowly-descending guide sleeve and a pallet slowly-descending guide pillar, the pallet slowly-descending guide sleeve is fixedly arranged on the slowly-descending mounting beam, one end of the pallet slowly-descending guide pillar is fixedly arranged on the pallet slowly-descending supporting plate, and the pallet slowly-descending guide pillar slides up and down along the pallet slowly-descending guide sleeve.

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